lwip/test/unit/tcp/test_tcp.c

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#include "test_tcp.h"
#include "lwip/tcp_impl.h"
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#include "lwip/stats.h"
#include "tcp_helper.h"
#if !LWIP_STATS || !TCP_STATS || !MEMP_STATS
#error "This tests needs TCP- and MEMP-statistics enabled"
#endif
/* Setups/teardown functions */
static void
tcp_setup(void)
{
tcp_remove_all();
}
static void
tcp_teardown(void)
{
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netif_list = NULL;
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tcp_remove_all();
}
/* Test functions */
/** Call tcp_new() and tcp_abort() and test memp stats */
START_TEST(test_tcp_new_abort)
{
struct tcp_pcb* pcb;
LWIP_UNUSED_ARG(_i);
fail_unless(lwip_stats.memp[MEMP_TCP_PCB].used == 0);
pcb = tcp_new();
fail_unless(pcb != NULL);
if (pcb != NULL) {
fail_unless(lwip_stats.memp[MEMP_TCP_PCB].used == 1);
tcp_abort(pcb);
fail_unless(lwip_stats.memp[MEMP_TCP_PCB].used == 0);
}
}
END_TEST
/** Create an ESTABLISHED pcb and check if receive callback is called */
START_TEST(test_tcp_recv_inseq)
{
struct test_tcp_counters counters;
struct tcp_pcb* pcb;
struct pbuf* p;
char data[] = {1, 2, 3, 4};
ip_addr_t remote_ip, local_ip;
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u16_t data_len;
u16_t remote_port = 0x100, local_port = 0x101;
struct netif netif;
LWIP_UNUSED_ARG(_i);
/* initialize local vars */
memset(&netif, 0, sizeof(netif));
IP4_ADDR(&local_ip, 192, 168, 1, 1);
IP4_ADDR(&remote_ip, 192, 168, 1, 2);
data_len = sizeof(data);
/* initialize counter struct */
memset(&counters, 0, sizeof(counters));
counters.expected_data_len = data_len;
counters.expected_data = data;
/* create and initialize the pcb */
pcb = test_tcp_new_counters_pcb(&counters);
EXPECT_RET(pcb != NULL);
tcp_set_state(pcb, ESTABLISHED, &local_ip, &remote_ip, local_port, remote_port);
/* create a segment */
p = tcp_create_rx_segment(pcb, counters.expected_data, data_len, 0, 0, 0);
EXPECT(p != NULL);
if (p != NULL) {
/* pass the segment to tcp_input */
test_tcp_input(p, &netif);
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/* check if counters are as expected */
EXPECT(counters.close_calls == 0);
EXPECT(counters.recv_calls == 1);
EXPECT(counters.recved_bytes == data_len);
EXPECT(counters.err_calls == 0);
}
/* make sure the pcb is freed */
EXPECT(lwip_stats.memp[MEMP_TCP_PCB].used == 1);
tcp_abort(pcb);
EXPECT(lwip_stats.memp[MEMP_TCP_PCB].used == 0);
}
END_TEST
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/** Provoke fast retransmission by duplicate ACKs and then recover by ACKing all sent data.
* At the end, send more data. */
START_TEST(test_tcp_fast_retx_recover)
{
struct netif netif;
struct test_tcp_txcounters txcounters;
struct test_tcp_counters counters;
struct tcp_pcb* pcb;
struct pbuf* p;
char data1[] = { 1, 2, 3, 4};
char data2[] = { 5, 6, 7, 8};
char data3[] = { 9, 10, 11, 12};
char data4[] = {13, 14, 15, 16};
char data5[] = {17, 18, 19, 20};
char data6[] = {21, 22, 23, 24};
ip_addr_t remote_ip, local_ip, netmask;
u16_t remote_port = 0x100, local_port = 0x101;
err_t err;
LWIP_UNUSED_ARG(_i);
/* initialize local vars */
IP4_ADDR(&local_ip, 192, 168, 1, 1);
IP4_ADDR(&remote_ip, 192, 168, 1, 2);
IP4_ADDR(&netmask, 255, 255, 255, 0);
test_tcp_init_netif(&netif, &txcounters, &local_ip, &netmask);
memset(&counters, 0, sizeof(counters));
/* create and initialize the pcb */
pcb = test_tcp_new_counters_pcb(&counters);
EXPECT_RET(pcb != NULL);
tcp_set_state(pcb, ESTABLISHED, &local_ip, &remote_ip, local_port, remote_port);
pcb->mss = TCP_MSS;
/* disable initial congestion window (we don't send a SYN here...) */
pcb->cwnd = pcb->snd_wnd;
//tcp_nagle_disable(pcb);
/* send data1 */
err = tcp_write(pcb, data1, sizeof(data1), TCP_WRITE_FLAG_COPY);
EXPECT_RET(err == ERR_OK);
err = tcp_output(pcb);
EXPECT_RET(err == ERR_OK);
EXPECT_RET(txcounters.num_tx_calls == 1);
EXPECT_RET(txcounters.num_tx_bytes == sizeof(data1) + sizeof(struct tcp_hdr) + sizeof(struct ip_hdr));
memset(&txcounters, 0, sizeof(txcounters));
/* "recv" ACK for data1 */
p = tcp_create_rx_segment(pcb, NULL, 0, 0, 4, TCP_ACK);
EXPECT_RET(p != NULL);
test_tcp_input(p, &netif);
EXPECT_RET(txcounters.num_tx_calls == 0);
EXPECT_RET(pcb->unacked == NULL);
/* send data2 */
err = tcp_write(pcb, data2, sizeof(data2), TCP_WRITE_FLAG_COPY);
EXPECT_RET(err == ERR_OK);
err = tcp_output(pcb);
EXPECT_RET(err == ERR_OK);
EXPECT_RET(txcounters.num_tx_calls == 1);
EXPECT_RET(txcounters.num_tx_bytes == sizeof(data2) + sizeof(struct tcp_hdr) + sizeof(struct ip_hdr));
memset(&txcounters, 0, sizeof(txcounters));
/* duplicate ACK for data1 (data2 is lost) */
p = tcp_create_rx_segment(pcb, NULL, 0, 0, 0, TCP_ACK);
EXPECT_RET(p != NULL);
test_tcp_input(p, &netif);
EXPECT_RET(txcounters.num_tx_calls == 0);
EXPECT_RET(pcb->dupacks == 1);
/* send data3 */
err = tcp_write(pcb, data3, sizeof(data3), TCP_WRITE_FLAG_COPY);
EXPECT_RET(err == ERR_OK);
err = tcp_output(pcb);
EXPECT_RET(err == ERR_OK);
/* nagle enabled, no tx calls */
EXPECT_RET(txcounters.num_tx_calls == 0);
EXPECT_RET(txcounters.num_tx_bytes == 0);
memset(&txcounters, 0, sizeof(txcounters));
/* 2nd duplicate ACK for data1 (data2 and data3 are lost) */
p = tcp_create_rx_segment(pcb, NULL, 0, 0, 0, TCP_ACK);
EXPECT_RET(p != NULL);
test_tcp_input(p, &netif);
EXPECT_RET(txcounters.num_tx_calls == 0);
EXPECT_RET(pcb->dupacks == 2);
/* queue data4, don't send it (unsent-oversize is != 0) */
err = tcp_write(pcb, data4, sizeof(data4), TCP_WRITE_FLAG_COPY);
EXPECT_RET(err == ERR_OK);
/* 3nd duplicate ACK for data1 (data2 and data3 are lost) -> fast retransmission */
p = tcp_create_rx_segment(pcb, NULL, 0, 0, 0, TCP_ACK);
EXPECT_RET(p != NULL);
test_tcp_input(p, &netif);
//EXPECT_RET(txcounters.num_tx_calls == 1);
EXPECT_RET(pcb->dupacks == 3);
memset(&txcounters, 0, sizeof(txcounters));
// TODO: check expected data?
/* send data5, not output yet */
err = tcp_write(pcb, data5, sizeof(data5), TCP_WRITE_FLAG_COPY);
EXPECT_RET(err == ERR_OK);
//err = tcp_output(pcb);
//EXPECT_RET(err == ERR_OK);
EXPECT_RET(txcounters.num_tx_calls == 0);
EXPECT_RET(txcounters.num_tx_bytes == 0);
memset(&txcounters, 0, sizeof(txcounters));
{
int i = 0;
do
{
err = tcp_write(pcb, data6, TCP_MSS, TCP_WRITE_FLAG_COPY);
i++;
}while(err == ERR_OK);
EXPECT_RET(err != ERR_OK);
}
//err = tcp_output(pcb);
//EXPECT_RET(err == ERR_OK);
EXPECT_RET(txcounters.num_tx_calls == 0);
EXPECT_RET(txcounters.num_tx_bytes == 0);
memset(&txcounters, 0, sizeof(txcounters));
/* send even more data */
err = tcp_write(pcb, data5, sizeof(data5), TCP_WRITE_FLAG_COPY);
EXPECT_RET(err == ERR_OK);
err = tcp_output(pcb);
EXPECT_RET(err == ERR_OK);
/* ...and even more data */
err = tcp_write(pcb, data5, sizeof(data5), TCP_WRITE_FLAG_COPY);
EXPECT_RET(err == ERR_OK);
err = tcp_output(pcb);
EXPECT_RET(err == ERR_OK);
/* ...and even more data */
err = tcp_write(pcb, data5, sizeof(data5), TCP_WRITE_FLAG_COPY);
EXPECT_RET(err == ERR_OK);
err = tcp_output(pcb);
EXPECT_RET(err == ERR_OK);
/* ...and even more data */
err = tcp_write(pcb, data5, sizeof(data5), TCP_WRITE_FLAG_COPY);
EXPECT_RET(err == ERR_OK);
err = tcp_output(pcb);
EXPECT_RET(err == ERR_OK);
/* send ACKs for data2 and data3 */
p = tcp_create_rx_segment(pcb, NULL, 0, 0, 12, TCP_ACK);
EXPECT_RET(p != NULL);
test_tcp_input(p, &netif);
EXPECT_RET(txcounters.num_tx_calls == 0);
/* ...and even more data */
err = tcp_write(pcb, data5, sizeof(data5), TCP_WRITE_FLAG_COPY);
EXPECT_RET(err == ERR_OK);
err = tcp_output(pcb);
EXPECT_RET(err == ERR_OK);
/* ...and even more data */
err = tcp_write(pcb, data5, sizeof(data5), TCP_WRITE_FLAG_COPY);
EXPECT_RET(err == ERR_OK);
err = tcp_output(pcb);
EXPECT_RET(err == ERR_OK);
#if 0
/* create expected segment */
p1 = tcp_create_rx_segment(pcb, counters.expected_data, data_len, 0, 0, 0);
EXPECT_RET(p != NULL);
if (p != NULL) {
/* pass the segment to tcp_input */
test_tcp_input(p, &netif);
/* check if counters are as expected */
EXPECT_RET(counters.close_calls == 0);
EXPECT_RET(counters.recv_calls == 1);
EXPECT_RET(counters.recved_bytes == data_len);
EXPECT_RET(counters.err_calls == 0);
}
#endif
/* make sure the pcb is freed */
EXPECT_RET(lwip_stats.memp[MEMP_TCP_PCB].used == 1);
tcp_abort(pcb);
EXPECT_RET(lwip_stats.memp[MEMP_TCP_PCB].used == 0);
}
END_TEST
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/** Create the suite including all tests for this module */
Suite *
tcp_suite(void)
{
TFun tests[] = {
test_tcp_new_abort,
test_tcp_recv_inseq,
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test_tcp_fast_retx_recover,
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};
return create_suite("TCP", tests, sizeof(tests)/sizeof(TFun), tcp_setup, tcp_teardown);
}